Patent application number | Description | Published |
20100002424 | LED LAMP TUBE WITH HEAT DISTRIBUTED UNIFORMLY - A LED lamp tube which includes a hollow transparent tube, a LED lamp assembly disposed in the transparent tube, two conductive caps provided on both ends of the transparent tube respectively, and a circuit control unit. The circuit control unit includes a plurality of separated sub-portions. The respective sub-portions of the circuit control unit are distributed uniformly on the circuit board of the LED lamp assembly. Via the uniform arrangement of respective sub-portions of the circuit control unit, the heat within the LED lamp tube can be distributed uniformly, thereby lowering the temperature and facilitating the heat dissipation. | 01-07-2010 |
20100002439 | LED LAMP TUBE HEAT DISSIPATING STRUCTURE - A light emitting diode (LED) lamp tube heat dissipating structure is capable of dissipating heat in a tube quickly to improve the heat dissipating efficiency. A circuit board with a light radiating surface and a heat dissipating surface is contained in the tube, and the light radiating surface of the circuit board is electrically connected to LED lamps. Two conductive bushings are sheathed onto both ends of the tube and electrically connected with the circuit board, and at least one heat dissipating hole is disposed separately on both distal surfaces of the tube that covers the heat dissipating surface of the circuit board, such that external air is entered into the tube from the heat dissipating hole on a distal surface of the tube and dispersed from the heat dissipating hole on another distal surface of the tube for dissipating the heat in the tube. | 01-07-2010 |
20100051236 | PROCESS AND ASSEMBLY FOR FLUSH CONNECTING EVAPORATOR SECTIONS OF JUXTAPOSED HEAT PIPES TO A FIXING BASE - A process for flush connecting evaporator sections of juxtaposed heat pipes to a fixing base and forming a plane includes the steps of: providing a fixing base with its bottom surface having an accommodating trough; providing at least two heat pipes each having an evaporator section and a condenser section; disposing the evaporator sections of the heat pipes in the accommodating trough; and machining the evaporator sections of the juxtaposed heat pipes, thereby forming a plane on the evaporator sections of the heat pipe. Via the above process, the evaporator sections of the heat pipes can be juxtaposed in and flush connected to the fixing base, thereby increasing the contact area between the evaporator sections of the heat pipes and a heat-generating element. It further provides an assembly for flush connecting evaporator sections of juxtaposed heat pipes to a fixing base and forming a plane. | 03-04-2010 |
20100066230 | HEAT DISSIPATING STRUCTURE OF LED CIRCUIT BOARD AND LED LAMP TUBE COMPRISED THEREOF - A heat dissipating structure of an LED circuit board and a device applied in an LED tube which comprises an LED circuit board having a plurality of soldering points. The soldering points of the LED circuit board are covered a coating layer including Nanoparticles and a bonding agent. Accommodating the LED circuit board covering the coating layer in an LED lamp tube to accelerate dissipating the heat of the LED circuit board by the coating layer having the characters of high emitting rate, temperature resistance, and conductivity insulation. On the other hand, for the coating layer can increase the contacting areas of the soldering points with the air to enlarge the heat dissipation area of the LED circuit board to accelerate dissipating the heat. | 03-18-2010 |
20100083500 | LEVELING METHOD FOR BURYING EVAPORATING SECTION OF HEAT PIPE INTO THERMALLY CONDUCTIVE SEAT - A leveling method for burying an evaporating section of a heat pipe into a thermally conductive seat is provided for an assembly of heat pipe and heat-conducting seat by simultaneously making the evaporating section of heat pipe partially formed into a flat surface when the evaporating section of heat pipe is being burying into the thermally conductive seat. Furthermore, in cooperation with a stamping machine, the leveling method is to make a multiple steps of press-fitting process to an evaporating section of heat pipe under a condition that there is no need to change the stamping die. | 04-08-2010 |
20100108120 | MULTI-STAGE FOLDING PORTABLE SOLAR CHARGING APPARATUS - A multi-stage folding portable solar charging apparatus includes first, second and third photoelectric conversion modules. The second photoelectric conversion module is pivotally connected to a side of the first photoelectric conversion module and folded/unfolded with respect to an upper surface of the first photoelectric conversion module, and the third photoelectric conversion module is pivotally connected to another side of the first photoelectric conversion module and can be folded/unfolded with respect to a lower surface of the first photoelectric conversion module, such that the photoelectric conversion modules are electrically connected with each other. A connector is fixed and electrically connected to one of the photoelectric conversion modules. The second and third photoelectric conversion modules are unfolded from the stacked first photoelectric conversion module to increase an electric power generation area of charging apparatus when unfolded to enhance the electric power generation, and reduce the volume of the charging apparatus when folded. | 05-06-2010 |
20100109599 | PORTABLE SOLAR CHARGING APPARATUS - A portable solar charging apparatus includes a retaining base, a snoot, a photoelectric conversion module, a power connector and a joint mechanism. The snoot is mounted onto the retaining base, and a containing space is formed between the retaining base and the snoot. The photoelectric conversion module is contained in the containing space and mounted onto the retaining base. The photoelectric conversion module includes an accumulator and a solar chip electrically connected to the accumulator. The solar chip is installed corresponding to the snoot. The power connector is connected to the retaining base and electrically coupled to the accumulator. The joint mechanism is connected to the retaining base and disposed outside the containing space. The invention allows a portable electronic product to be charged and used anytime and improves the overall photoelectric conversion efficiency. | 05-06-2010 |
20100122799 | METHOD FOR COMBINING HEAT PIPES WITH A FIXING BASE AND STRUCTURE OF THE SAME - In a method for juxtaposing and combining a plurality of heat pipes with a fixing base, first, a fixing base having an accommodating trough is provided. The accommodating trough is provided therein with at least one recess. Further, a plurality of heat pipes is provided. Adhesive medium is coated on the contacting surface between the heat pipe and the accommodating trough. The plurality of heat pipes is pressed into the accommodating trough. Finally, the heat pipes juxtaposed in the accommodating trough are pressed coplanarly the surface of the fixing base while a portion of the adhesive medium is received in the recess. | 05-20-2010 |
20100127657 | PORTABLE SOLAR CELL CHARGING DEVICE - A solar cell charging device includes a base shown as a shell shape, a light-converging lens arranged at a top face of the base, a solar collector correspondingly located under the light-converging lens and a photoelectric converting unit. A plurality of charging troughs arranged on the base are recessed inwardly from circumferential faces thereof. The photoelectric converting unit is connected between each charging trough and the solar collector, converting the light energy absorbed by the solar collector into electric energy provided to be input into each charging trough, after the light-converging lens focuses the solar energy onto the solar collector. | 05-27-2010 |
20100165630 | HEAT DISSIPATING STRUCTURE OF LED LAMP CUP MADE OF POROUS MATERIAL - A heat dissipating structure of a lightweight lamp cup | 07-01-2010 |
20100226138 | LED ROAD LAMP HOLDER STRUCTURE - A road lamp holder structure includes a lamp guard ( | 09-09-2010 |
20100265708 | HEAT-DISSIPATING ASSEMBLY OF LED LAMP HOLDER - A LED lamp holder includes a lamp cover and a heat-dissipating device provided in the lamp cover. An accommodating inlet is provided on the lamp cover. A LED unit is provided below the lamp cover. A cover plate covers the accommodating inlet. The heat-dissipating device includes a heat-absorbing plate, a heat-dissipating plate and a heat pipe connected between the heat-absorbing plate and the heat-dissipating plate. The heat-absorbing plate is brought into contact with the LED unit, while the heat-dissipating plate is brought into contact with the cover plate. The cover plate is penetrated by a plurality of screw elements. Each of the screw elements is screwed to the heat-absorbing plate. The length of each screw element exactly makes the heat-absorbing plate to abut and contact the LED unit. | 10-21-2010 |
20110038147 | ASSEMBLY STRUCTURE FOR LED LAMP - An assembly structure for a LED lamp includes a cover plate, a LED module, fasteners and a mask. An inner surface of the cover plate is provided with a fixing portion. Both sides of the cover plate are formed with a slot respectively. The LED module has a substrate and a plurality of LED mounted on the substrate. The substrate is provided with an insertion hole. One end of the fastener is detachably connected into the insertion hole of the substrate and the other end thereof is fixed to the fixing portion. The mask is made of transparent materials and has an accommodating space for allowing the LED module to be disposed therein. Both sides of the mask defining the accommodating space are formed with a locking flange for inserting into the slot of the cover plate. With the above arrangement, the operator can assemble or detach the LED lamp quickly. | 02-17-2011 |